More mirrors. Object O stands on the central axis of a spherical or plane mirror. For this situation (see the table below, all distances are in centimeters), find (a) the type of mirror, (b) the radius of curvature r (nonzero number or O if infinity),. (c) the object distance p. (d) the image distance i, whether (e) the image is real or virtual, (f) inverted or noninverted from 0, and (g) on the same side of the mirror as object O or on the opposite side. (a) (b) (c) (d) (e) (f) (g) Туре f i m R/V I/NI Side r -47 +0.21
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- Spherical mirrors. Object O stands on the central axis of a spherical mirror. For this situation object distance is ps = +20 cm, the type of mirror is concave, and then the distance between the focal point and the mirror is 13 cm (without proper sign). Find (a) the radius of curvature r (including sign), (b) the image distance i, and (c) the lateral magnification m. Also, determine whether the image is (d) real or virtual, (e) inverted from object O or noninverted, and (f) on the same side of the mirror as O or on the opposite side.29) PLEASE ANSWER THE MISSING PROBLEMS C AND D, THANKSThe reflecting surfaces of two intersecting flat mirrors are at an angle of 59 ◦ , as shown in the figure. A light ray strikes the horizontal mirror at an angle of 53◦ with respect to the mirror’s surface (Figure is not drawn to scale) Calculate the angle φ. Answer in units of ◦.
- An object is placed 18 cm from a certain mirror. The imageis half the height of the object, inverted, and real. How faris the image from the mirror, and what is the radius of curvature of the mirror?As shown in the figure, a ray of light strikes a plane mirror with some incident angle. The mirror is now rotated by an angle of a = 15.0° about an axis through the point where N, contacts the mirror, without 1 altering the incident ray. The new position is shown by the line M,. Reflected ray before rotation Reflected ray (after rotation M1 a M2 (a) Determine the angle through which the reflected ray rotates if the incident angle is 40.0°. 15 (b) Determine the angle through which the reflected ray rotates if the incident angle is 50.0°. 15d, d; In the picture above, you know the distance from the lens to the object, d, = 7cm, and the distance from the mirror to the image, d; %3D = 4.6cm. The position of the focal point must be at i cm. (Record your answer to two decimal places.)
- Suppose you have a concave mirror as shown in the image below. If h = 0.7m is the height of an object (really the displacement of the top of the object from the axis) and h' = 4.34m is the height of the image, what is the magnitude of the transverse magnification (in units of meters)? Image с Object Note: Do not explicitly include units in your answer (it is understood the unit is meter). Enter only a number. If you do enter a unit, your answer will be counted wrong.More lenses. Object O stands on the central axis of a thin symmetric lens. For this situation (see the table below, all distances are in centimeters), find (a) the lens type, converging or diverging. (b) the focal distance f, (c) the image distance i. It also refers to whether (d) the image is real or virtual, (e) inverted or noninverted from 0, and (f) on the same side of the lens as O or on the opposite side. (a) (b) (c) (d) (e) (f) Туре f p i m R/V I/NI Side +26 +1.27 (a) (b) Number i Units (c) Number i Units (d) (e) (f)A ball is dropped from rest 3.20 m directly above the vertex of a concave mirror having a radius of 1.70 m and lying in a horizontal plane. (a) Describe the motion of the ball's image in the mirror by filling in the table below. Object Distance, p Image Distance, q 3.20 m ? m 0.850 m ? m 0 m ? m (b) At what two times do the ball and its image coincide? (List the lesser time first.) s and s
- Spherical mirrors. Object O stands on the central axis of a spherical mirror. For this situation object distance is p, = +22 cm, the type of mirror is concave, and then the distance between the focal point and the mirror is 11 cm (without proper sign). Find (a) the radius of curvature r (including sign), (b) the image distance i, and (c) the lateral magnification m. Also, determine whether the image is (d) real or virtual, (e) inverted from object O or noninverted, and (f) on the same side of the mirror as O or on the opposite side. (a) Number i Units (b) Number i Units (c) Number i Units (d) (e) (f)More mirrors. Object O stands on the central axis of a spherical or plane mirror. For this situation (see the table below, all distances are in centimeters), find (a) the type of mirror, (b) the radius of curvature r (nonzero number or 0 if infinity), (c) the image distance i, (d) the lateral magnification m, whether (e) the image is real or virtual, (f) inverted or noninverted from O, and (g) on the same side of the mirror as object O or on the opposite side. (a) (b) (c) (d) (e) (f) (g) Type f r p i m R/V I/NI Side +24 +37(Dove Prism) A new type of prism inverts an image that comes in through one end (see Figure 1). The prism will be shaped like a trapezoid with a square cross-section and sides cut at a 45° angle, and that the prism will be made of a plastic called BK7 that has an index of refraction of 1.517. Decide on the dimensions of the prism in order to maximize the size of the image that can be inverted (see incoming/outgoing rays in the side view in Figure 2). How long (length B in Figure 1) should the prism be in terms of its height (length A in Figure 1)? What happens to an image that enters the prism on one side of its long face (see figure 3)? Make a drawing tracing the path of rays 4, 5, and 6 in figure 3 to find out. Figure 1 Figure 2 1 3 2 45° 3 1 Figure 2 Figure 3 45° Figure 3 4 5 6